Apparatus for sealing containers



July 4, 1944.- 1 w. D. BELL 2,352,752-

APPARATUS FOR SEALING CONTAINERS Filed April-8, 1939 4 Sheets-Sheet l IIA INVENTOR BY 7 M I L a ATTORNEYS m 4,1944. w. D. BELL 2,352,762

APPARATUS FOR SEALING CONTAINERS Filed April 8, 1939 4 Sheets-Sheet 3 ATTORNEYS y 1944- w. D. BELL APPARATUS FOR SEALING CONTAINERS 4 .Sheets-Sheet 4 Filed April 8, 1939 1 l5. J a

\ llll I 5 INVEN'IC'OR j ATI'IORNEYS Patented July 4, 1944 APPARATUS FOR SEALING CONTAINERS William D. Bell, Columbus, Ohio, assignor to Anchor Hocking Glass Corporation, Lancaster, Ohio, a corporation of Delaware Application April. 8, 1939, Serlal'No. 266,914

19 Claims.

My invention relates to an apparatus for sealing containers. It has to do, more particularly; with an apparatus for applying closures to con tainers, such as food containers and including jars, bottles, cans, et cetera,.and sealing them on the containers and for producing a partial vacuumin the upper ends of the containers.

One of the objects of my invention is to provide a greatly simplified apparatus for applying and sealing closures on containers and. for creating an eflective vacuum in the space at the upper end of the container between the closure and the contents of the container which will aid in preventing spoilage of the contentsand will also aid in keeping the closure in position on the container.

Another object of -my invention is to provide an apparatus of the type indicated which i of such a nature that the closure and upper end. of the container and the head space between the contents and -the closure will be sterilized during the sealing'operation. T Another object of my invention is to provide an apparatus of the type indicated which will vacuumizeandjsealf the container. quickly and effectively. r

Another object bf my invention is to provide a ma h e m type inilisei whl 1801 a very simple structure and,; therefore, can'be built at a relatively low cost, which will occupy a small amountof space, and'which is composed of a minimum number of parts tending to wear or become inoperative. a I

Another object of my invention is to provide a machine of the type indicated which may be readily adjusted to operate upon containers of various sizes.

Another object of my invention is to provide a machine of the type indicated which will automatically adjust itself .to container varying in height to a limited degree.

Another object of my invention is to provide v of the container.

point, there is also provided means for lifting each container from the conveyer until the cap thereon contacts with the sealing head and the cap is forced into frictional engagement with the upper end of the container. Iifhe sealing head is provided with means which will automatically lift the cap from the upper end of each container,

and inject steam into the head space at the upper end of each container, both-of these operations being performed substantially simultaneously just prior to-the sealing of the cap, on the container. After the cap is sealed on the container, the steam previously injected into the head space of the container will condense, creat ing. an efiective vacuum within the container which will aid in holding thecap in position and will also aid in preventing spoilage of the contents Various other objects and advantages will'be apparent from the following description.

'I'he preferred embodiment of my invention isillustrated in the accompanying drawings whereinsimilar characters of reference designate corresponding parts and wherein: v H

Figure .l-is a perspective view illustrating a machine constructed in accordance with my invention. 1 v Figure 2 is a view partly. in perspective and partly in section illustrating a portion of the seal,- ing head of my machine. r

Figure 3 is a view partly in section and partly in side elevation of the structure illustrated in Figure 2 and showing a cap in association therewi h.

Figure '4 is'a vertical transverse section taken through the sealing head, illustrating the upper end of a container and its cooperating cap in association with the sealing head.

Figure 5 is a perspective view, partly broke away, of my machineillustrating most of the operating mechanism thereon a machine which will be continuous in operation and which will perform its operations without handling of the containers by an operator.

In it preferred form my invention contemplates the provision of a simple apparatus for applying closures to and sealing them on various containers such as jars, bottles, cans, etc. Withmy apparatus, the filled containers are placed indiscriminately on a continuous moving conveyor. During the movement of the containers by the conveyer, caps or other closures are'loosely Figure '6 is a diagrammatic view of the operating mechanism of my machine.

Figure '7 is a vertical longitudinal sectional view showing the means; for liftingthe container into contact with the sealing head.

Figure 8 is a vertical transverse sectional taken substantially along line 8-8 of Figure '7.

positioned on the upper ends ofthe containers."

Means is provided in association with the conveyer for centering and maintaining the containers centered on the conveyer. The containers are then moved. to a point where a'sealing head is disposed. above the upper ends of the containers. At this This sealing head is spaced slightly Figure 9 is a view partly in'section but mainly in side elevation illustrating the cap feeding and applying unitof my machine. a

Figure 10 is an end view of the structure-illustratedinFigure 9.

Figure 11 is a view mainly in plan but'partly in horizontal section .of the structure illustrated inFigure9.-

- Figure l2 is a view partly in perspective and partly insection of the cap feeding mechanism.

With referenceto the drawings, I have illustrated a machine which I preferably use in per.

forming my invention and which comprises generally a table I supporting a horizontal conveyer unit 2 on its upper end, a cap feeding and applying unit 3, and a sealing head unit 4. All of these units will be described in detail hereinafter.

The table I may be made of steel plates and comprises supporting legs 5 and an upper housing portion 6. The top of the housing is formed by the top plate I of the table. A removable plate 8 is provided at the side of the housing in order to permit access to the interior thereof which is adapted to contain most of the operating mechanism of the machine. At each end of the housing adjacent to the top of the table a pair of outwardly projecting supporting beam members 9 are provided. These beam members from one end of the machine to the other between the beam members 9 and through a channel l3 in the top I of the table. The plate Ill-is supported by transverse bars I (Figures 5, 7 and 8) secured to the lower surface of the top I of the table and to the beam members 9. The top surface of the plate I is substantially flush with the top surface of the table 1 and with the upper edges of the beams 9.

The chains l2 are endless sprocket chains and pass around a pair of driving sprockets l5 at one end of the machine and a pair of idler sprockets l6 at the other end of the machine. The sprockets l5 are keyed on a horizontal transverse shaft l1 rotatably mounted in the ends of the pair of beams 3 at that end of the machine.

The sprockets l6 are keyed on a horizontal transverse shaft l8 rotatably supported in the ends of the beams 9 at that end of the machine. The shaft I1 is driven by an electric motor l9 through nular skirt 28 which carries an annular gasket 21 therewithin. When the cap is forced downwardly onto the reduced portion 23, the fric- "container.

a speed reduction gear unit '29, both of which are supported by one of the beams 9 adjacent to the outer end thereof. The conveyer is normally driven continuously by the motor I 9. The chains will pass through the grooves ll formed in the plate l0. As indicated in Figures 1, 5 and 8, the top edge of each chain l2 will project slightly above the top surfaces of the plate 18. Thus, articles placed on the conveyer will be supported by the pair of chains l2 which are closely adjacent to each other and the bottom of the articles will not contact with the upper surfaces of the plate I. Furthermore, the upper flights of the'chains will slide along the bottoms of the grooves ll formed in the plate Ill. The lower flights of the chains l2 will pass beneath the plate l9 and through an opening 2| formed in each end of the housing 6.

As indicated in Figure 1, the containers 22 are placed indiscriminately'on the conveyer and are moved in the direction of the arrow by the conveyer. My invention is not limited to any particular type of container and cooperating cap but for illustrative purposes I have shown a container which has at its upper end a reduced por-- 'In order to center the containers transversely of the conveyer and to maintain them centered, I provide a pair of longitudinally extending guide rails 28. Each guide rail 28 is supported adjacent one edge of the conveyer by means of a plurality of longitudinally spaced vertical supports 29. Each support 29 carries at its upper end a transversely adjustable pin 30 which is connected to the rail 28. Each pin 30 is held in adjusted position by set-screw 38a. Thus, it will be apparent that the guide rails 28 may be adjusted towards and from each other to compensate for differences in sizes of the containers upon which this machine may operate. At the end of the machine where the containers first enter between the guide rails, these rails are flared outwardly as indicated at 3|. Thus, these guide rails will center the containers on the conveyer as they are moved between the rails and will maintain them centered on the conveyer during the various operations performed by the machine.

After the containers are positioned on the conveyer, they are first carried to the cap feeding and applying unit 3. This cap feeding and applying unit is illustrated best in Figures 1 and 9 to 12 inclusive. The cap feeding and applying unit comprises a cap receiving magazine for receiving a stack of nested caps which is formed by four upstanding posts 32 supported on a horizontally disposed cap feeding device 33. This device 33 is carried by a vertically disposed slide 34 operating ina vertically disposed guide member 35. The guide member 35 is carried by a horizontal support 36 at one side of the conveyer. A vertically disposed screw member 31 is supported by the member 35 and is threaded through the slide 34. By operating hand wheel 38 keyed on the upper end of screw member 31, the slide 34 may be raised or lowered so that the device 33 can be adjusted to different heights depending upon the height of the containers to be operated upon by the machine. The slide 34 also carries a bolt 35a which extends into a vertical slot formed in member 35. This bolt may be tightened to hold member 34 in any adjusted position. The vertical supporting member 35 is bolted to the horizontal support 38 by means of bolts 39 which extend into slots formed in the member 36 and disposed transversely of the conveyer. This permits the member 35 to be adjusted laterally relative to the conveyer. Thus, the device 33 may be adjusted both vertically and laterally relative to the conveyer to properly position it relative to the containers on the conveyer.

The device 33 is preferably of the construction indicated in Figures-9 to 12. It consists of a member 40 which has an annular socket portion 4| that receives and retains an annular collar 42. The collar 42 forms the lower partof the cap magazine and is retained in position by means of bolts 43. The collar member 42 may be removed and replaced with a different member having a central opening 44 of a different size depending upon the size of the'caps to be applied to the containers. The upper end of the opening or central socket 44 is flared, as indicated .member 46.

' the opening These plates can be removed and replaced with plates having openings of a difierent size to permit caps of a different size to pass therethrough. Thus, the slide is provided witha top plate 41 having an opening therein through which the caps in the magazine will drop. With the slide in the position indicated in Figure 9, the lowermost cap in the magazine will rest on an inwardly projecting cap separator 46 which is disposed directly below the plate 41. This separator 46 has a sharp forward edge 49; Spaced a distance slightly greater than the thickness of a cap below the separator 48 is a plate 50. This plate has an opening 5| through which the caps will drop after being removed from the separator 48 in the manner to be described. Spaced a similar distance below the plate 56 is a shelf 52 which terminates at the point 53 spaced from one edge of the opening 5| in plate 56. Extending from the lower side of the slide is the bottom member 54 of the cap chute. This member extends downwardly and then horizontally. It is provided with a narrow tongue 55 at its forward edge. A pivoted gate 56 hangs freely adjacent to the forward edge of the tongue 55. This gate has its upper end pivoted at 51 to vetrically disposed side plates 58 which form the sides of the cap chute. These side .plates 56 are attached to horizontal members 59 which are bolted to they The member 42 carries a pin 60 which extends downwardly almost into contact with the plate50. The member 42 also carries a similar pin 6| at a point on the opposite side of the opening 44. This pin projects downwardly through aligning slots formed in the plates '41,

t 50 and 52. I a

container carried by the moving conveyer will engage the skirt of the cap causing it to be withdrawn from the chute and swinging the gate 56 about its pivot. Each time the slide is reciprocated a cap will be withdrawn from the magazine and a cap will be deposited in the cap chute."

I provide means for automatically reciprocating the slide 46. This means comprises a lever 62 which is keyed at its upper end to a horizontally disposed shaft 65 rotatably mounted in a hearing or sleeve 64 supported by the member 35. The lower end of thi lever is pivotally connected to a link 65 which is pivoted to the-outer end of the slide 46. A second lever 66 is pivoted to the opposite end of the shaft 63. This lever is also pivoted at 61 to a member 61a which is adjustably threaded on the upper end of a rod 66. The lower end of this rod is pivotally connected to the core 69 of a. solenoid Ill. The solenoid I6 is supported on the horizontal support 36 which carries member 35. The solenoid is such that each time it is energized, the slide 46 will be withdrawn and then returned to its original position.

The solenoid is energized each time a container engages a cap and withdraws it' from the chute which causesv the gate 56 to be swung about its pivot- To acomplish this the gate 56 carries'a mercuryswitch II which is connected by wires I2 .to the solenoid. This switch .is so arranged that when the gate 56 is swung outwardly andv upwardly by withdrawing a cap from the chute,

the switch makes contact and energizes the solenoid. When the solenoid is energized, the rod 68 is pulled downwardly, swinging lever 66 downwardly, rotating shaft 63, swinging lever 62 cut wardly and drawing the slide 46 'outwardly. When the gate 56 drops back to its original position, the switch 1| breaks the circuit, and the solenoidis de-energized. A spring 69a. may be provided in the solenoid for forcing the core 69 upwardly to cause the slide 46 to be returned to its original position. The efiective length of the rod 68 is adjustable by adjusting member 61a. therealong to permit verticaladjustment of In the operation of this mechanism, the slide 46 is adapted to be reciprocated intermittently.

Figure'9. As soon as the slide 46 is withdrawn to the rightiFigure 9), the cap resting on the separator 48 will contact with the pin 6i and the separator 46 will be withdrawn from beneath the. cap allowing it to drop on the-forward por- The caps in the magazine are superimposed and the lowermost cap willrest on'the separator 48 when the slide is in the position illustrated in tionof the plate 50. When the slide is moved back to its initial position, the separator 46 engages the next cap. The sharp edge 49 .separates the stack from'the cap to be dropped. At the sametime the cap which-rests on the plate 56 will engage the pin 66 and will drop through outward movement of the slide will cause the cap resting on-member 52, in the manner illusonto the 'member 52. The next member 52 willbe withdrawn from beneath the cap. Thiswill cause the'cap todrop down onto the member 54. It will slide down member 54 and will hangover the forward end of tongue iii but will be retained on the member 54 by the gate 56, as indicated'in-Figure9w In the meantime, during the reciprocation of the slide, another cap will be moving into the positions previously occupied by the first mentioned cap. A

member on member 35.

After the containers pass the unit 3, where t e caps are loosely applied thereto, they pass to the sealinghead unit 4. This unit is adapted to seal the caps on the containers and to vacuumize and sterilize the head space and sterilize the cap before the sealing operation. This sealing head unit 4 is illustrated best in Figures 1 to 'I inclusive. It;comprises .a transversely extending plate 13 of nonemagnetic, metal which is supported on a pair of .posts [4, one of which is disposed at eachsideof atheconveyer, which are supported 'bythe upper plate 1 of the table I. The posts 14 are threaded and a pair of spaced nuts 15 oneach post hold' the plate 13 in the desired vertical position. It will be apparent that the plate I3 may be adjustedso that itwill be at the proper height depending upon the height of the containersto be sealed. v

In order to seal the caps on the containers, when each container moves beneath the sealing plate 13, the container israised until the capcon tacts with the lower surface of plate 13 and the cap is forced downwardly'over the mouth of the container. To accomplish this]; provide means directly below the sealingplate l3 for raising the container from-the cdnveyer'and causing the cap thereon to engage plate 13'. Thus, it will be noted from Figures 1, 5 and that the plate i6 is provided with a movable section Illa directly below the plate 13. This section Illa is slightly different from the main sections of the plate. The grooves Ila therein are deeper (Figure 8) and bars ||b are provided in the grooves and normally rest on recessed portions 18 provided at the ends of grooves ll so that the bars will be substantially flush with the bottoms of the grooves I. The chains I 2 will contact with these bars Mb.

The section |8a of the plate I8 is carried on the upper end of a piston rod 11 which extends downwardly into a vertically disposed hydraulic cylinder 18 (Figure '7). The piston rod 11 proiects upwardly from a piston 19 which operates in the cylinder 18. A compressionspring 88 in the upper end of cylinder 18 bears against the piston 19 and normally maintains it in its lowermost position. Hydraulic pressure is adapted to move the piston 19 upwardly. When the piston does move upwardly, the member Illa is raised and a containerwhich is on the conveyer above this member will also be raised. The container is lifted from the continuously moving conveyer. The grooves ||a are deep enough to permit the member |a to be raised sufllclently without contacting bars HD to cause the cap on the container to contact plate 13 and to be forced on the mouth of the container to its final sealed position. The chains I! will continue to move through the grooves Ila during this operation.

The lower surface of the plate 13 carries a pair of steam jets 8|. These steam jets are adapted to sterilize the head space in the upper end of the container and the cap and to displace the air in head space. The members 8| are spaced apart and are so disposed that the upper end of a container moved along by the conveyer will pass between these members irf the manner illustrated in Figure 4. Each member 8| has a main longitudinally extending steam passageway 82 which has an inwardly directed jet orifice 83 in the form of a slot. The steam will issue through the oriflces 83 continuously. As will be explained later, I provide means for lifting each cap from the upper end of the container so that the steam can pass into the upper end thereof to perform its sterilizing and evacuating vfunctions. The members 8| are mounted on plate 13 by bolts and slots so that they may be moved laterally relative to each other in accordance with variations in the sizes of containers sealed by my machine.

The two steam jets are connected by conduits 84 to a superheater 85 (Figure The superheater 85 embodies a tank 88 and an inner coil 81. The upper end of the coil 81 is connected to the conduit 84. The lower end of the coil is connected by a pipe 88 to a high pressure main steam line 89. A valve 90 is provided in the pipe 88 and is adustable to govern the pressure of the steam flowing through the coil 81 and to the jets 8|. The main steam line 89 is connected also to the upper end of the tank 88 as at 9|. A drain pipe 92 is connected to the lower end of the tank 86 and is adapted to discharge the condensate. In the operation of this superheater, the steam will flow from the line 89'through pipe 88, past valve 90 into the coil 81, and then through conduit 84 to the jets 8|. The pressure of this steam, which will be comparatively low,'can be regulated by the valve 90. Steam will also flow from the main line 89 into the tank 86 and will.

when the steam passes from the main line into the coil 81, at which time its pressure is reduced, there will be a tendency for the steam in the coil to condense. However, due to the fact that the high pressure and high temperature steam from the line 89 fills the tank 86, this condensation will be precluded because the coil will be heated by the steam in the tank above the temperature of saturation. Thus the steam applied to the upper end of the containers by the jets 8| will be dried or superheated and will serve more effectively to produce a vacuum in the upper end of the container. If desired, the conduit 84 may be provided with a pressure gauge 93 and a thermometer 94.

In order to lift each cap from the container as it passes under the sealing head 4, I provide a magnet 95 above theplate 13. This magnet 95 is of the horseshoe type and is vertically disposed above the plate 13. Its poles extend into sockets 96 formed in the upper surface of the plate 13. The sockets 98 extend almost entirely through the plate so that the poles will be more effective on a cap beneath the plate. When a container with a cap thereon moves beneath the plate 13 and the magnet, the magnetic force will cause the cap to be lifted from the container so that the steam jets can apply the steam to the interior thereof. The magnet will lift the cap and draw it upwardly into contact with the plate 13 and hold it in this position, in which position it will continue to move with the con-, tainer since the neck of the container will still engage the skirt of the cap, until the container rises and engages the cap which will be sealed thereon. However, it sometimes happens that the cap applied to the upper end of the container; by the unit 3 will stick thereon and it will be difficult for the magnet to lift it therefrom. To

overcome this I provide a pair of spaced strips 91 which are supported by the members 8| and which extend downwardly and rearwardly at an angle. As indicated in Figure 3, these members are spaced laterally apart sufliciently to engage the lower edge of the cap skirt at diametrically opposed points. They will engage the cap just shortly before it comes beneath the plate'13 and the cap will move oif these members just before it moves beneath the magnet 95. The members 91 will raise the cap only very slightly so that the upper end of the container will still engage the skirt of the cap and. move the cap along beneath 13. The members 91 are laterally'adlustable with the members 8| so that they may be made to function with caps of varying sizes.

I provide a control system for causing the container lifting mechanism to function each time a container with a cap thereon passes beneath the plate 13 and magnet 95. If it happens that the,

unit 3 does not apply a cap to the container so that when it moves beneath the plate 13 there is no cap thereon, this mechanism will not function to lift the container. Thus, there is no danger of the container lifting mechanism operating to lift a container not having a cap thereon and crushing the upper end of the containe against plate 13.

This control system is actuated 'by the magnet 95 when a cap is moved beneath this magnet. It will be noted that one pole of the magnet is provided with an auxiliary pole 98 above'th plate 13 which projects towards the opposite pole. Between the two poles of the magnet above the plate 13 and closely adjacent to the auxiliary pole 98 is mounted a mercury switch 99. This switch includes one contact I (Figures 2 and 3) which is always in the mercury IOI in the bottom of the switch. It also includes a movable springv contact I02 which normally does not eirtend downwardly into the mercury, as indicated in Figure 2, .due to the fact that the pole 99 will delay the reclosing of-the pressure switch H4 0 until the piston 19 has returned to its original lower position after being forced upwardly in a l exert suiflcient magnetic force thereon to draw it towards this pole 98 and out or the mercury.

This is true when a metal cap is not. positioned under the plate ,13. At time the lines oi magnetic force will pass from the auxiliary pole 90 directly across to the. opp-csite pole. However, whena cap is positioned beneath the plate 13, the magnetic lines ofiorce will pass downwardly from the one pole or themagnet through the cap to the other pole of the magnet. This will reduce the eflect ofthe magnetic lines or force given off by the auxiliary pole 90. Consequently, the force exerted by this pole '98 on the spring contact I021will not be sufllcient to hold the contact I02 out of the mercury. Consequently, when a cap is beneath the magnet 95, the mercury switch '99 will be closed. As previously stated this switch is adapted to control the flow of hydraulic fluid to the cylinder 10 which controlsthe container lift 5 ing mechanism.

The hydraulic fluid supplying system for supplying fluid to the cylinder 10 is illustrated best manner which will be described later.

Another pipe I2'I leadsifro 'e pipe"I 01. This pipe is connected to the inlet I22-'of a'pilot operated' control valve 123. 'i'hefoutl'etlflof'this valve is connected to a pipe "Iwhich leads to the sump I05. The valve I23 fha's'a passage way I25 connecting the inlet I22 with the outlet I24. This passageway is under the controloi a valve member I21 seating on a seat I23. The

member n is carried by a piston "lawman" normally held in its uppermost position by fluid mally fluid will flow from the line I2I to the line I25. However, if member I21 is seated, the fluid will notflow from line I2I to line I25. The piston I29 is provided with a-pass'age I30a extending therethrough which permits fluid to drain irom line I30 into line I2I under a certain condi- 7 tion.

in Figures 5 and 6. This mechanism is enclosed in the housing 5 of the table I. It comprises a combined electric motor and oil pump I03. The pump I03 has an inlet line I04 which extends into an oilsump I05. It also has an outlet line I09 connected to a pipe I01 thatis connected to the lower end of cylinder 10, as at I08. A pipe I09 leads from the pipe I01 back to the sump I05.

This pipe has interposed therein an overload relief valve IIO. This valve isnormally held in closed position by a spring III to prevent flow of fluid from line I01 through line I09 to the sump. However, it the pressurein the system exceeds'a. predetermined amount, the valve will automatically open. The valve may be adjusted to open at difierent pressures by means of the screw I I2.

A pipe II3 is also connected to the pipe I01 adjacent to cylinder 18. This pipe II3 leads to a pressure switch Ill. This switch includes a bellows II5 to which the pipe 3 is connected.

This bellows H5 is adapted to operate a contact member I It in the form of a bellcrank lever. A spring Ilia, adjustable by a screw IISb, engages the lower arm of contact IIS, and normally tends tokeep this. contact in closed position. As will be explained later, the switch II4 is adapted to control the mercury switch 99. In

the line I I3 there is interposed a check valv I I1. This valve includes a passageway under the control of a ball check valve I III. The ball is held on its seat under slight pressure by means of spring Illa and the force exerted by this spring may be varied by means of the adjustable nut H9. The pressure in the line I I3 under normal conditions will unseat the valve H8 allowing the fluid 4 to flow up into the bellows II5. However, the switch I16 will not be opened 'until the pressure in the line II3 exceeds a predetermined amount suflicientto overcome the resistance of spring I I-0a. A small return lay-pass opening I20 is pronormally closed solenoid valve I32. The" line I30 is connected to the outlet I33 of this valve I32. A valve seat I30 is provided in this valve and the lower end of the core I35 of the solenoid normally is seated thereon. A branch line I36 leads from the pipe I01 to the upper end of the valve I32 and supplies fluid to a small chamber I31 above the core I35. A manually adjustable valve I38 is provided in line I01 adjacent to valve Hand 2. similar valve I39 is provided in line I36 adjacent to the valve I32.

The mercury switch 99, th pressure relief switch I I4 and the solenoid valve I32 are in series in an electric circuit indicated generally by the numeral I-40 in Figure 6. The motor I03 and motor I9 are alsoconnected in this circuit.

When there is no container under the plate 13 or when the container under the plate has no metal cap thereon, the mercury switch 99 will be open, as previously indicated. Under these conditions the solenoid valve I32 will be closed. The valve I23 will be open, but the valve I I1 and the valve IIO will also be closed. Therefore, the pump I02 will draw fluid irom th sump I05 through line I00, force it through line I06, into line I01, through line I2I, through valve I23,

passes beneath the plate 13, the mercury switch 99 will close, as previously explained. At this time the switch II4 will also be closed. This vided in valve I I1 to permit the fluid to slowly return to, the pipe I01when the pressure in line I I3 falls below the predetermined amount, the fluid beingiorced through opening I20 by contraction ole-the bellows. This permits the contact member IIB. toreturn to its initial closed position slowly.

The function of thecheckvalve 115 only to will energize the solenoid 'of the solenoid valve I32. It 'will draw the core I35 upwardly opening the solenoidvalve. The flow of hydraulic fluid will then occur in the manner indicated by the dotted line arrows inFigure 6. That is, the pump I03 will draw fluid, from the sump through line I0 0, will force this fluidlthroug'h line mil-land into line IIJI, through valve I32, through line I30 into valve I23 and will-cause member I21 to be seated closing this valve. Therefore, return of the fluid to the sump through line I25 will be precluded. This will cause the pressure in the line III! to be built up and cause additional fluid to enter the cylinder I8 forcing the piston I9 thereof upwardly. Also this pressure willact through the line H3 and valve Ill and on the bellows II5, causing it to expand and opening switch H4. switch 99 and to the solenoid I32 allowing these members to return to their initial condition. However, this will not happen until after the piston 19 has been forced upwardly to the desired extent. Deenergizing the solenoid permits the valve I32 to close, the valve I23 to be opened, the ball II8 of valve III to be seated, and the piston I9 to fall back to its lowermost position. The bellows II5 will slowly return to its original position, allowing the contact H6 to move into its original position to close switch II4. Valve II! will delay closing of switch II4 until piston I9 returns to its lower position. All of these operations will occur almost instantaneously. The opening I30a in piston I30 will permit fluid to drain slowly from line I30 so that valve I23 can be opened. The only time the valve III) will open will be when excessive pressure is generated within the hydraulic system. For example, this may occur when a container is being sealed which is of slightly greater height than the container for which the machine is set. It is well known that glass containers which are all supposed to be of the same height vary to a limited degree due to manufacturing difficulties. Under such a condition the valve H0 will open relieving the pressure in the system and preventing crushing of the container.

From the preceding description the operation of the entire machine will be well understood. The conveyer will be continuously driven and the sealing head unit 4 and the cap feeding and applying unit 3 will be properly adjusted to accommodate the containers and caps to be used. The containers will be placed indiscriminately on the conveyer which will move them between the guides 28 so that they will be in alignment with the lower end of the cap chute. The containers will then be moved along and as they pass beneath the cap chute will withdraw caps therefrom as previously described. Th containers with the caps loosely thereon will then be moved beneath the sealing head unit. Each time a container with a metal cap thereon moves beneath this unit, the hydraulic system will be automatically actuated to raise the member I0a, lifting the container from the conveyer and causing the cap, which has been previously drawn up into contact with plate I3, to be sealed on the upper end of the container. During the time the member Illa. is lifted it will engage the next container on the conveyer, if the conveyer tends to move it under the sealing head, and will interrupt movement of this container thereby preventing two containers from being under the sealing head at the same time. Before this sealing operation occurs the upper end of the container and the cap are sterilized and the air in the upper end of the container is displaced by steam. This is accomplished by the steam jets 8|. As previously described when the container with a cap thereon reaches the plate I3, the cap is lifted therefrom in the manner illustrated in This will break the circuit to the Figure 4, allowing the steam to enter into the container in itself serves to hold the cap on the container. However, the condensation of the steam trapped in the head space in the container beneath the cap, which occurs immediately, produces a partial vacuum which is the main force serving to hold the cap on the jar and which also aids in preventing spoilage of the contents of the container. The sealing occurs substantially simultaneously with the injection of the steam into the container and, consequently, the steam will not have much chance of escaping from the container before it is sealed. Immediately after the sealing action, the container is lowered until it again rests on the continuously moving conveyer and is moved away from the sealing position. As previously stated the container lifting mechanism will not function if a container which has no cap thereon passes therebeneath. Also excessive sealing pressure will be prevented if a container of unusual height is encountered. This will prevent crushing of the container.

It will be apparent from the above description that I have provided a greatly simplified apparatus for applying and sealing closures on containers. The caps are first positioned on the containers loosely, are then lifted and the upper portion of the containers vacuumized and sterilized and simultaneously the caps are sterilized,

and then the caps are forced into sealing engagement with the container. The containers will be vacuumized and sealed quickly and effectively. The machine is very simple and can be built at a comparatively low cost. It can be adjusted readily to operate upon containers of various sizes.

Many other advantages will be apparent from the preceding description, the drawings and the following claims.

Having thus described my invention, what I claim is:

1. Apparatus of the type described comprising a continuously moving conveyer for supporting containers which have caps loosely resting on the upper ends thereof, a sealing head unit disposed above the conveyer, means for lifting each container from the conveyer into contact with the sealing head unit to force the cap on the container and for then lowering the capped containeronto the continuously moving conveyer, means associated with the sealing head unit for lifting the cap slightly from the container and injecting steam into the container before the cap is forced thereon, and control means actuated by said last-named means for controlling operation of said means for lifting the container.

2. Apparatus of the type described comprising a continuously moving conveyer for supporting containers which have caps loosely resting on the upper ends thereof, a sealing head unit disposed above the conveyer, means for producing relative movement between each container and the sealing head unit to force the cap on the container, means associated with the sealing 3. Apparatus of thetype described comprising a continuously moving conveyer for supporting containers which have caps loosely resting on the upper ends thereof, a sealing head unit disposed above the conveyer,"means for lifting each container from the conve'yer'into contact with the sealing'headunit to force the cap. on the containerand for then lowering thecapped container onto the continuously m'oving conveyer, means associated with the sealing head unit for lifting the cap slightly from the container, and for displacing air from the container before the cap is forced thereon, and a control means actuated by said means for lifting the cap for controlling operation of said means for lifting the container. .i

4. Apparatus of the type described comprising a continuously moving conveyer for supporting containers which have caps loosely resting on the upper ends thereof, a sealing head unit dis posed above the conveyer, means for lifting each container from the conveyer intocontact with the sealing head'unit to force the cap on the container and for then lowering the capped'container onto the continuously moving conveyer, a magnet associated with the sealing head unit for lifting the cap slightly from the container, means'associated with the sealing head unit for forcingsteam into the container while the cap container from the conveyer into contact with the sealing head unit to force the cap on the container and for then lowering the capped container onto the continuously moving conveyer, a magnet associated with the sealing head'unit the upper endsthereof, a sealing head unit disposed above the conveyer, means for lifting each container from the conveyer into contact with the sealing head unit to forcethe cap on the container and for then lowering'the capped cdntainer onto the continuously moving conveyer; a magnet associated with the sealing head unit.

for lifting the cap slightly from the container, means associated with the sealing head unit for forcing steam into thecontainer while the cap is lifted therefrom, said last-named means and said magnet functioning beforethe cap is forced on the container, said means for lifting the container from the conveyer comprising a vertically movable container support associated with the conveyer directly below said sealing head unit,

a hydraulic cylinder andlpiston unit for moving said support vertically, a valve for controlling supply of fluid to said cylinder and piston unit, and an electric control circuit actuated by said magnet for controlling said valve. 1

8. Apparatus of the type described comprising a continuously moving conveyer for supporting containers which have caps-loosely resting on the upper ends thereof, a sealing headunit disposed above the conveyer, means for lifting each container from the conveyer into contact with the sealing head unit to force the cap on the container and for then lowering the capped container, onto the continuously moving conveyer, a magnet associated with the sealing head unit for lifting the cap slightly from .the container, means associated with. the sealing head unit for forcing steam into the container while the cap is lifted therefrom, said last-named means and said magnet functioning before the cap is forced on the container, said means for lifting the con tainer from the conveyer comprising a vertically movable container support associated with the conveyer directly below said sealing head unit, a

- hydraulic cylinder and piston unit for moving for lifting the cap slightly from the container 7 prior to the time it is forced thereon, saidmeans for liftingthe container from the conveyer comprising' a vertically movable container support, associated with the conveyer, means for moving said support vertically,v and control means actuated by said magnet for controlling operation of said last-named means. v

6. Apparatus of the type described comprising a continuously moving conveyer for supporting container's 'which have caps loosely resting on the upper ends thereof, a sealing head unit disposed above the conveyer, means for lifting each container from the "conveyer into contact with the sealing head unit to force the cap on the containerand for then lowering'thecapped container onto the continuously movin'g conveyer, a magnet associated with the sealing headunit for lifting',the cap slightly from the container prior to the time it is forced'thereon, said means for lifting the container from the conveyercom prising a vertically movable .containe r support associated with the conveyer directly "below said sealing head unit, hydraulic means, for moving saidsupport vertically, and control means ac tuated-=by said magnetfor controllingoperation ofsaid lastenamed means,

7. Apparatus of thety fi g a continuously moving conveyer for'supporting said support vertically, and a solenoid-operated valve for controllingsupply of fluid to said cylinder and piston unit, said magnet and said solenoid being connected in an electric circuit so that said ,valve is under the control of said magnet.

9. Apparatus of the type described'comprising' a continuously moving conveyer for supporting containers which have caps loosely resting'on the upper ends thereof, a sealing head unit disposed above the conveyer, means for lifting each container from the conveyer'into contact with the sealing head unit to forcethe cap on the 7 container and for thenlowering the capped container onto the continuously moving conveyer, a

magnet associated with the sealing head unit for lifting the cap slightly from the container, means associated with the sealing head unit for forcing steam into the container while the cap is lifted therefrom, said last-named means and said magnet functioning before the cap is forced on the container, said means for lifting the container from the conveyer comprising a vertically move able container support associated with the conveyer ,directly below said sealing head unit,'a hydraulic cylinder and piston unit for,moving said support vertically, a solenoid operated valve for,controlling supply of' fluid, to said cylinder and piston unit, said: magnetand said solenoid being connected ,inan elctricicircuit so that said valve is under the control of said magnet, and alpressure relief .valve associatedwith said cylinder and piston unit for preventing said unit containers which have caps loosely resting on from exerting a pressure on said container in excess of a predetermined amount.

10. Apparatus of the type described comprising a continuously moving conveyer for supporting containers which have caps loosely resting on the upper ends thereof, a sealing head unit disposed above the conveyer, means for lifting each container from the conveyer into contact with the sealing head unit to force the cap on the container and for then lowering the capped container onto the continuously moving conveyer, a magnet associated with the sealing head unit for lifting the cap slightly from the container, means associated with the sealing head unit for forcing steam into the container while the cap is lifted th'erefrom, said last-named means and said magnet functioning before the cap is forced on the container, said means for lifting the container from the conveyer comprising a vertically movable container support associated with the conveyer directly below said sealing head unit, a hydraulic system including a cylinder and piston unit for moving said support vertically, a solenoid-operated valve for controlling supply of fluid to said cylinder and piston unit, said magnet and said solenoid .being connected in an electric circuit so that said valve is under the control of said magnet, a pressure relief valve associated with said cylinder and piston unit for preventing said unit from exerting a pressure on said container in excess of a predetermined amount, a switch connected in said electric circuit, said switch being operated by pressure in the hydraulic system to break the circuit in which said magnet and solenoid are connected after said cylinder and piston unit operate to lift the container, said switch being of such a nature that it will slowly return to its closed position.

11. In a machine of the type described, a sealing head unit for forcing caps onto containers, means for moving a container with a cap loosely thereon into association with said unit, a magnet associated with the sealing head unit for holding a cap lifted from the container in a raised position, means associated with the sealing head unit for engaging the cap and lifting it slightly therefrom before said magnet acts on such cap, and means for forcing steam into the upper end of the container while the cap is lifted therefrom.

12. Apparatus of the type described comprising a conveyer for supporting the containers, means for continuously moving the conveyer, a cap applying unit disposed in association with the conveyer for positioning skirted caps loosely on the upper ends of the containers as they are moved past said unit,- a sealing head 'unit disposed in superimposed relationship to said conveyer, said sealing head unit embodying a sealing head proper having a magnet associated therewith for holding a cap lifted from the upper edge of the container in raised position, means associated with the sealing head unit for ,engaging the cap and lifting it slightly therefrom before said magnet acts on the cap, said means for lifting the cap and said magnet serving to hold the cap in such position that the skirt of the cap will still be engaged by the container so that the cap will move along withthe container as it is moved by the conveyer, means for injecting steam into the upper end of the container while the cap is spaced from the container, and means for lifting the container into association with the sealing head to force the cap into posi- 1 tion on the container and then to lower the container on the continuously moving conveyer.

13. Apparatus of the type described comprising a conveyer for supporting the containers, means for continuously moving the conveyer, a cap applying unit disposed in association with the conveyer for positioning skirted caps loosely on the upper ends of the containers as they are moved past said unit, a sealing head unit disposed in superimposed relationship to said conveyer, said sealing head unit embodying a sealing head proper having. a. magnet associated therewith for holding a cap in spaced relationship to the upper edge of the container, said magnet serving to hold the cap in such position that the skirt of the cap will still extend downwardly beyond the upper edge of the container, means for injecting steam into the upper end of the container while the cap is spaced from the container, and means for lifting the container into association with the sealing head to force the cap into position onthe container and then to lower the container onto the continuously moving conveyer.

14. Apparatus of the type described comprising a conveyer for supporting containers which have skirted caps loosely applied to the upper,

for injecting steam into the upper end of the container while the cap is spaced therefrom, and means for lifting the container into association with the sealing head to force the cap into position on the container and then to lower the container on the conveyer.

a conveyer for supporting containers which have skirted caps loosely applied to the upper. ends thereof, a sealing head disposed in superimposed relationship to said conveyer, a magnet associated with the sealing head for holding a cap thereagainst in spaced relationship to the upper edge of the container, said sealing head'being normally so disposed that the skirt of the cap will still extend downwardly 'beyond "the upper edge of the container, means for injecting steam into the upper end of the containerwhile the cap is spaced from the container, and means for lifting the container into association with the sealing head to force the cap into position on the container and then to lower the container onto the conveyer.

16. Apparatus of the type described comprising a conveyer for supporting containers which have skirted caps loosely applied to the upper ends thereof, a sealing head disposed in superimposed relationship to said conveyer, a magnet associated with the sealing head for holding a cap lifted from the upper edge of the container in raised position, means associated with the sealing head for engaging the cap and lifting it slightly therefrom before said magnet acts on the cap, said means for'lifting the cap and said magnet serving to hold the cap in such position that the skirt of the cap will still extend downwardly beyond the upper edge of the container, means for 15. Apparatus of the type described comprising injecting steam into the upper end of the container while the 'cap is spaced therefrom, and means for moving the container and the .seallns head relative to each other to force the cap on the container.

17. Apparatus of the typedescribed comprising a conveyer for supporting containerswhich have caps loosely applied to the upper ends thereof; a sealing head disposed in'superimposed relationship to said ccnveyer, means associated 10 with the sealing head for holding a cap lifted from the upper edge of the container in raised position, means associated with the sealing head for engaging the cap and lifting it slightly therefrom before said last-named means acts on the 15 cap, means for injecting steam into the upper end of the container while the cap is spaced therefrom, and means for moving the container and the sealing head relative to each other to force the cap on the container. 20

18. Apparatus of the type described comprising a support for a container which has a cap positioned loosely on the upper end thereof, a sealing head disposed above the support, means for moving said container and the sealing head relative to each other toseal the cap on the container, a control unit for controlling said moving means, said control unit including means for lifting the cap from the container substantially into contactwith said sealing head, and means for initiating movement of said moving means while the cap is so lifted.

19. Apparatus of the type described comprising a moving conveyer for supporting containers whichhave caps loosely positioned on the upper ends thereof, a sealing head disposed above the conveyer, means for interrupting movement of each'successlve container by the conveyer and for moving each successive container and the sealing head relative to each other in a direction axially of the container to force the cap on the container, a control unit for controlling said 

